Your Shoulder Pain May Be the Result of a Muscular Imbalance

What we commonly call the "shoulder joint" is referred to by
doctors as the gleno-humeral (GH) joint. This is the point where your upper arm (i.e.
humerus) attaches to the lateral end of your shoulder blade (i.e. scapula). Most of your
shoulder's motion is due to movement of your arm at the GH joint. The remainder is caused
by smaller movements of the scapula.

The GH joint is a shallow ball-and-socket joint that allows your arm to move freely in all
directions. This joint's inherent flexibility, however, makes it relatively unstable. It's
function depends heavily on the coordinated strength of the surrounding muscles. To better
understand this instability, consider the following analogy:

Imagine your upper arm as being a large tent pole, extending upward from the
ground. Your shoulder is the point on the ground where the tent pole rests. Your shoulder
muscles are then the ropes or guy wires that hold the tent pole in position. As long as
all of these guy wires remain strong and tensioned, the pole maintains its proper
position, and the tent maintains its integrity. However, if any of the guy wires break,
stretch, or loose tension, the remaining guy wires will pull the pole out of position, and
the tent will collapse.

Your deltoids, pectorals, latissimus dorsi, teres major, and rotator
cuff muscles (subscapularis, supraspinatus, infraspinatus, and teres minor) all cross the
shoulder joint and attach to your upper arm. In addition to moving your arm, they help
hold its proper position in the GH joint. Because these muscles have different origins of
attachment, each one, like the guy wires, pulls your arm in a different direction.

Shoulder muscles are commonly classified as being either internal rotators or external
rotators. The largest shoulder muscles, including the pectorals, latissimus dorsi, and
teres major, are all internal rotators. This means that in addition to moving your arm
forward or backward, they also cause some inward rotation of your arm. The corresponding
external rotation is produced almost entirely by two small muscles of the rotator cuff --
the infraspinatus and the teres minor.

Posterior View of the Right Shoulder
The Infraspinatus and Teres Minor are External Rotators

Almost all athletic activities stimulate your internal rotators to a
much greater degree than your external rotators. Throwing a baseball, serving a tennis
ball, and bench pressing a weight are just a few examples. By repetitively performing such
activities, your internal rotators are strengthened while your external rotators become
relatively weaker. Gradually, the structure of your shoulder is compromised. Your upper
arm shifts a little bit forward in the GH joint and presses a little harder on the
surrounding nerves, your internal rotators shorten slightly and tighten, and your external
rotators lose some of their original tone. Your shoulder strength begins to erode, and you
increasingly experience incidents of nonspecific shoulder pain.

If your shoulder dysfunction is the result of a muscular imbalance, the
cure is to make adjustments to your exercise program that counter this imbalance.
Specifically, you'll need to stretch your internal rotators (to allow your shoulders to
return to a more natural position) and strengthen your external rotators (to increase your
shoulders' stability).

Almost any stretching movement that forces your upper arms backward and upward will
stretch your internal rotators. One of our favorites is a simple pectoral stretch,
performed one arm at a time. Begin by standing beside a vertical structure, such as a
doorway or the corner of a building. Place your palm and forearm against the structure,
with your elbow bent 90 degrees and at approximately shoulder height. Take a small step
forward and slowly rotate your body away from your raised arm. Maintain a gentle but
persistent stretch across the front of your shoulder for at least 20 seconds, then repeat
for your opposite shoulder.

Strengthening your external rotators is the most challenging part of your rehabilitation,
because very few exercises stimulate the infraspinatus and teres minor directly, and it's
easy to perform those exercises improperly. That's exactly why the ShoulderHorn was
created.

Use the ShoulderHorn to Isolate and Strengthen Your External
Rotators

The external rotation exercise is similar to a tennis backhand stroke --
your elbow is bent 90 degrees and stays in one position, while your hand and forearm pivot
backward. This exercise can be done either with your upper arm held flat against your side
or with your arm partially raised (horizontally abducted). From an athlete's standpoint,
there are two compelling reasons to perform this exercise in the abducted position:

Better neuromuscular preparation for overhead exertion
Horizontal abduction better approximates the position of your shoulder when it's under
greatest load during the lifting, throwing, and overhead motions common to many sports
(e.g. baseball, football, weight lifting, tennis, swimming). Performing the exercise in an
abducted position better conditions your external rotators to respond appropriately when
most needed.

Relief of supraspinatus compression
One of your other rotator cuff muscles -- the supraspinatus -- occupies a confined space
along the top of your scapula, and can experience compression-induced disruption of its
blood supply when forces are applied to your shoulder in a fully adducted (arm down)
position. This potential problem is eliminated by use of the abducted position.

External rotation in an abducted position should only be done with
proper support, however. If the weight of your upper arms isn't completely supported,
other muscles of your shoulder and upper back (e.g. deltoid, trapezius) will activate and
decrease the amount of benefit your infraspinatus and teres minor receive from this
exercise. In addition, if the position of your upper arm is to high or too far back,
there's a risk of impingement between your humerus and acromion (the hook-shaped bone
structure at the top of your scapula).

The ShoulderHorn automatically locks your shoulders and arms in the safest and most
effective position for abducted external rotation. The ShoulderHorn has also been clinically proven to be
significantly more effective for increasing external rotator strength than dumbbells
alone.

Use the ShoulderHorn with a pair of hand-held weights, as shown below. Beginners may use
as little as 2 lbs of weight for this movement, and even the strongest athletes will need
less than 20 lbs. For this reason, a small medicine ball, or even a can of soup, can
provide suitable resistance if dumbbells aren't available. A training booklet, included
with the ShoulderHorn, provides additional details on this exercise and how to best
incorporate it into your training or rehabilitation schedule.

See Real Improvements in Your Strength

The ShoulderHorn has helped many athletes regain strength and prevent
further injury. Here's what a few of them have to say:

"Bench (315 to 365). Also more stable and less vibrations during lift along with
less pain. Painful 'clicking' noises have almost disappeared on all upper body movements.
All in only 5 weeks of use!"
- Jeff (Irving, TX)

"I've increased my weight in bench, flyes, and shoulder press with less pain. I
also threw 80 pitches at batting practice (after 5 months of not playing ball) with
greater velocity and no pain at all."
- David (Corona, CA)

Choose From 3 Different Sizes

The ShoulderHorn is made from a single length of formed steel tubing,
and is covered in dense foam padding. It's extremely strong, yet surprisingly light in
weight (under 3 lbs), and is available in three sizes. Use the information below as a
general guide when ordering. Choose the next size up if you are between sizes or have
exceptionally broad shoulders.

Size 1 (XS/S): For heights up to 5'5" and weights up to 140 lbsSize 2 (M/L): For heights up to 6' and weights up to 200 lbsSize 3 (XL/XXL): For heights over 6' and weights over 200 lbs